Your search keyword '"Ferdinando Rossi"' showing total 5 results

1. Extracerebellar progenitors grafted to the neurogenic milieu of the postnatal rat cerebellum adapt to the host environment but fail to acquire cerebellar identities

Author

Simona Gribaudo, Kazuaki Yoshikawa, Ketty Leto, Silvia De Marchis, Chiara Rolando, and Ferdinando Rossi

Subjects

neural progenitor, Ganglionic eminence, Central nervous system, Green Fluorescent Proteins, Subventricular zone, Biology, Prosencephalon, Interneurons, Cortex (anatomy), Cerebellum, medicine, Animals, Progenitor cell, Rats, Wistar, Stem Cell Niche, Cells, Cultured, Embryonic Stem Cells, differentiation, GABAergic interneuron, heterotopic transplantation, phenotype specification, stem cell, Neurons, General Neuroscience, Stem Cells, Spinal cord, Rats, medicine.anatomical_structure, nervous system, Cytoarchitecture, Animals, Newborn, Cerebellar Nuclei, Stem cell, Rats, Transgenic, Neuroscience, Stem Cell Transplantation

Abstract

Stem or progenitor cells acquire specific regional identities during early ontogenesis. Nonetheless, there is evidence that cells heterotopically transplanted to neurogenic regions of the developing or mature central nervous system may switch their fate to adopt host-specific phenotypes. Here, we isolated progenitor cells from different germinative sites along the neuraxis where GABAergic interneurons are produced (telencephalic subventricular zone, medial ganglionic eminence, ventral mesencephalon and dorsal spinal cord), and grafted them to the prospective white matter of the postnatal rat cerebellum, at the time when local interneurons are generated. The phenotype acquired by transplanted cells was assessed by different criteria, including expression of region-specific transcription factors, acquisition of morphological and neurochemical traits, and integration in the cerebellar cytoarchitecture. Regardless of their origin, all the different types of donor cells engrafted in the cerebellar parenchyma and developed mature neurons that shared some morphological and neurochemical features with local inhibitory interneurons, particularly in the deep nuclei. Nevertheless, transplanted cells failed to activate cerebellar-specific regulatory genes. In addition, their major structural features, the expression profiles of type-specific markers and the laminar placement in the recipient cortex did not match those of endogenous interneurons generated during the same developmental period. Therefore, although exogenous cells are influenced by the cerebellar milieu and show remarkable capabilities for adapting to the foreign environment, they essentially fail to switch their fate, integrate in the host neurogenic mechanisms and adopt clear-cut cerebellar identities.

Published

2010

2. GAP-43 overexpression in adult mouse Purkinje cells overrides myelin-derived inhibition of neurite growth

Author

Sara, Gianola and Ferdinando, Rossi

Subjects

Mice, Purkinje Cells, GAP-43 Protein, Gene Expression Regulation, Neurites, Animals, Mice, Transgenic, Neural Inhibition, Myelin Sheath, Nerve Regeneration, Up-Regulation

Abstract

Up-regulation of growth-associated proteins in adult neurons promotes axon regeneration and neuritic elongation onto nonpermissive substrates. To investigate the interaction between these molecules and myelin-related inhibitory factors, we examined transgenic mice in which overexpression of the growth-associated protein GAP-43 is driven by the Purkinje cell-specific promoter L7. Contrary to their wild-type counterparts, which have extremely poor regenerative capabilities, axotomized transgenic Purkinje cells exhibit profuse sprouting along the intracortical neurite and at the severed stump [Buffo et al. (1997) J. Neurosci., 17, 8778-8791]. Here, we investigated the relationship between such sprouting axons and oligodendroglia to ask whether GAP-43 overexpression enables Purkinje neurites to overcome myelin-derived inhibition. Intact transgenic Purkinje axons display normal morphology and myelination. Following injury, however, many GAP-43-overexpressing neurite stumps are devoid of myelin cover and sprout into white matter regions containing densely packed myelin and Nogo-A- or MAG-immunopositive oligodendrocytes. The intracortical segments of these neurites show focal accumulations of GAP-43, which are associated with disrupted or retracted myelin sheaths. Numerous sprouts originate from such demyelinated segments and spread into the granular layer. Some myelin loss, though not axon sprouting, is also evident in wild-type mice, but this phenomenon is definitely more rapid and extensive in transgenic cerebella. Thus, GAP-43-overexpressing Purkinje axons are endowed with enhanced capabilities for growing into nonpermissive territories and show a pronounced tendency to lose myelin. Our observations suggest that accumulation of GAP-43 along precise axon segments disrupts the normal axon-glia interaction and enhances the retraction of oligodendrocytic processes to facilitate the outgrowth of neuritic sprouts.

Published

2004

3. Embryonic Purkinje Cells Grafted on the Surface of the Cerebellar Cortex Integrate in the Adult Unlesioned Cerebellum

Author

Piergiorgio Strata, Ferdinando Rossi, and Tiziana Borsello

Subjects

Cerebellum, General Neuroscience, Central nervous system, neuron - target interactions, Biology, sprouting, Fourth ventricle, Embryonic stem cell, Transplantation, climbing fibre, plasticity, rat, medicine.anatomical_structure, nervous system, Climbing fibre, Cerebellar cortex, medicine, Neuroscience, Sprouting

Abstract

The presence of an injury or the selective degeneration of specific neuronal populations is commonly assumed to be a necessary prerequisite for the survival and the integration of grafted neurons in the recipient brain. In the present study we have placed solid grafts of cerebellar anlage in the fourth ventricle of adult rats, in close contact with the host cerebellar cortex, to assess the capacity of embryonic Purkinje cells to interact with adult neurons and integrate in the unlesioned cerebellar cortex. Numerous grafted Purkinje cells are indeed able to leave the implant and migrate into the host molecular layer, where they develop adult structural features. In addition, such cells are able to elicit the growth of host climbing fibre sprouts which end in newly formed arborizations impinging upon their dendritic trees. Climbing fibre collateral branches also penetrate the implant to innervate Purkinje cells which have not migrated in the host cerebellum. These results show that embryonic Purkinje cells are able to survive and integrate in an adult unlesioned cerebellar cortex. In addition, adult olivary axons respond to the increased size of the target population by expanding their terminal domain to innervate grafted Purkinje cells.

Published

1992

4. Spontaneous Saccades and Gaze-Holding Ability in the Pigmented Rat. I. Effects of Inferior Olive Lesion

Author

Leonardo Chelazzi, Filippo Tempia, Mirella Ghirardi, Piergiorgio Strata, and Ferdinando Rossi

Subjects

Chemistry, oculomotor system, General Neuroscience, eye movements, olivocerebellar system, gaze stability, search coil, Time constant, Eye movement, Anatomy, Extraocular muscles, Gaze, Saccadic masking, Tonic (physiology), Lesion, Search coil, medicine.anatomical_structure, medicine, medicine.symptom

Abstract

We have studied the effects of lesion of the inferior olive on the spontaneous eye movements performed both in the light and dark in head restrained pigmented rats. The inferior olive lesion was made at least 1 month before study with 3-acetylpyridine and eye movements were recorded through a phase detection search coil apparatus. Following lesion, the spontaneous saccades performed in the dark present a postsaccadic drift which is made up of two components characterized by their different time courses, the first one being fast and the second one slow. The latter component is due to the leakage of the neural integrator and the former is mainly the consequence of a mismatch between the phasic and the tonic component of the ocular movement. In the light only the first component is present and then the eye maintains a steady position. After the lesion the saccades in the dark present a time constant of the slow component of the postsaccadic drift which is significantly reduced to approximately 600 - 900 ms from a value of 1600 - 4000 ms of the intact rats. This means that the integrity of the inferior olive is necessary to keep the time constant of the neural integrator within the physiological range. In the light, the amplitude of the postsaccadic drift depends on two factors. First, there is a mismatch between the phasic and the tonic components of the ocular movement, which are due to the pulse and the step of innervation of the extraocular muscles respectively. Different types of analysis have shown that the gain of the pulse to step transformation is about 0.77 at all saccadic amplitudes and eccentricities. Second, there is an increased leakiness of the neural integrator. Such a contribution increases linearly as a function of the eccentricity with a slope of 0.21. The main sequence of the saccades is not appreciably affected by the olivary lesion. Thus, the consequence of the inferior olive lesion may be interpreted as a general disruption of the integration process which, in physiological conditions, generates a proper and sustained oculomotor signal. More generally, it may be viewed as a loss of coordination between phasic and tonic motor commands.

Published

1990

5. Spontaneous Saccades and Gaze-Holding Ability in the Pigmented Rat. II. Effects of Localized Cerebellar Lesions

Author

Filippo Tempia, Ferdinando Rossi, Mirella Ghirardi, Leonardo Chelazzi, and Piergiorgio Strata

Subjects

Cerebellum, Chemistry, General Neuroscience, Time constant, Eye movement, Anatomy, Flocculus, Extraocular muscles, Saccadic masking, Tonic (physiology), Lesion, medicine.anatomical_structure, medicine, medicine.symptom, Neuroscience

Abstract

We have studied the effects of the ablation of the cerebellar vermal area corresponding to lobules VI - VIII and of the flocculus - paraflocculus of both sides on the spontaneous eye movements performed in the light and in the dark in head-restrained pigmented rats. These effects have been compared with those already described for the inferior olive lesion. The cerebellar lesions were performed 1 week to 6 months in advance. Eye movements were recorded through a phase detection search coil apparatus. Following vermal topectomy, the main characteristics of the spontaneous saccades are unmodified. Following the ablation of the flocculus - paraflocculus there is no change in the saccadic main sequence. However, the spontaneous saccades in the dark present a postsaccadic drift made up of two components with different time courses, the first one being fast and the second one slow. The former is due in part to a mismatch between the phasic (the pulse) and the tonic (the step) components of the eye movements; the latter to the leakage of the neural integrator. In light only the first component is present and the eye maintains a steady position. The time constant of the neural integrator is considerably reduced to approximately 600 - 900 ms from a value of approximately 1600 - 4000 ms in the intact rats. The amplitude of the postsaccadic drift in the light depends on both the mismatch between the pulse and the step of innervation of the extraocular muscles and the increased leakiness of the neural integrator. The gain of the pulse to step transformation is reduced to approximately 0.79 at all saccadic amplitudes and eccentricities and such a reduction is due to a decreased step amplitude, while the pulse amplitude remains unchanged. The contribution of the leakage of the neural integrator to the postsaccadic drift in the light is a function of the eccentricity with a slope of 0.23. The deficits described after flocculus - paraflocculus ablation are also very similar to those described following inferior olive lesion from a quantitative point of view. The possible mechanisms of the visually activated olivocerebellar system in the control of saccadic performance and in maintaining its calibration are discussed.

Published

1990